async def test_poll_observer():
    main = ApplicationCommunicator(MainConsumer, {
        'type': 'channel',
        'channel': CHANNEL_MAIN
    })

    await main.send_input({
        'type': TYPE_POLL,
        'observer': 'test',
        'interval': 2
    })

    channel_layer = get_channel_layer()

    # Nothing should be received in the first second.
    async with async_timeout.timeout(1):
        try:
            await channel_layer.receive(CHANNEL_WORKER)
            assert False
        except CancelledError:
            pass

    async with async_timeout.timeout(2):
        # Then after another second we should get a notification.
        notify = await channel_layer.receive(CHANNEL_WORKER)
        assert notify['type'] == TYPE_EVALUATE
        assert notify['observer'] == 'test'
Beispiel #2
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async def test_folkrnn_consumer():
    tune = RNNTune.objects.create(**FOLKRNN_IN)

    scope = {'type': 'channel', 'channel': 'folk_rnn'}
    communicator = ApplicationCommunicator(FolkRNNConsumer, scope)

    await communicator.send_input({
        'type': 'folkrnn.generate',
        'id': tune.id,
    })
    while RNNTune.objects.last().rnn_finished is None:
        await sleep(0.1)
    await communicator.send_input({'type': 'stop'})
    await communicator.wait()

    with open(TUNE_PATH + f'/thesession_with_repeats_{tune.id}_raw') as f:
        assert f.read() == FOLKRNN_OUT_RAW

    correct_out = FOLKRNN_OUT\
                    .replace('X:1', f'X:{tune.id}')\
                    .replace('№1', f'№{tune.id}')
    with open(TUNE_PATH + f'/thesession_with_repeats_{tune.id}') as f:
        assert f.read() == correct_out

    tune = RNNTune.objects.last()
    assert tune.rnn_started is not None
    assert tune.rnn_started is not None
    assert tune.rnn_started < tune.rnn_finished
    assert tune.rnn_finished - tune.rnn_started < timedelta(seconds=5)
    assert tune.abc == correct_out
async def test_poll_observer():
    poller = ApplicationCommunicator(PollObserversConsumer, {
        'type': 'channel',
        'channel': CHANNEL_POLL_OBSERVER,
    })

    await poller.send_input({
        'type': TYPE_POLL_OBSERVER,
        'observer': 'test',
        'interval': 5,
    })

    channel_layer = get_channel_layer()

    # Nothing should be received in the frist 4 seconds.
    async with async_timeout.timeout(4):
        try:
            await channel_layer.receive(CHANNEL_WORKER_NOTIFY)
            assert False
        except CancelledError:
            pass

    # Then after two more seconds we should get a notification.
    notify = await channel_layer.receive(CHANNEL_WORKER_NOTIFY)
    assert notify['type'] == TYPE_EVALUATE_OBSERVER
    assert notify['observer'] == 'test'
Beispiel #4
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async def run_consumer(timeout=None):
    """Run the consumer until it finishes processing.

    :param timeout: Set maximum execution time before cancellation, or
        ``None`` (default) for unlimited.
    """
    manager_channel = state.MANAGER_CONTROL_CHANNEL
    manager_scope = {
        "type": "control_event",
        "channel": manager_channel,
    }
    manager_app = ApplicationCommunicator(ManagerConsumer(), manager_scope)
    channel_layer = get_channel_layer()

    async def _consume_loop(channel, scope, app):
        """Run a loop to consume messages off the channels layer."""
        message = await channel_layer.receive(channel)
        while message.get("type", {}) != "_resolwe_manager_quit":
            message.update(scope)
            await app.send_input(message)
            message = await channel_layer.receive(channel)

    consume_future = asyncio.ensure_future(
        _consume_loop(manager_channel, manager_scope, manager_app)
    )

    with suppress(asyncio.TimeoutError):
        await asyncio.wait_for(consume_future, timeout=timeout)

    await manager_app.wait()
Beispiel #5
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async def test_notify_by_version(event):
    communicator = ApplicationCommunicator(EventsWorker, {'type': 'test'})

    event.title = 'abc'
    event.save()

    versions = Version.objects.get_for_object(event)
    version_id = versions[0].pk

    await communicator.send_input({
        'type': 'notify_slack_by_event_version',
        'version_id': version_id,
    })

    await communicator.wait(timeout=1)
Beispiel #6
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    async def test_on_welcome(self, mock_welcome):
        """
        `irc.receive` called with a `welcome` command should call the
        `on_welcome`
        """
        communicator = ApplicationCommunicator(AsyncIrcConsumer,
                                               {'type': 'irc'})

        await communicator.send_input({
            'type': 'irc.receive',
            'command': 'welcome',
            'channel': 'test_channel',
            'user': '******',
            'body': None,
        })

        await communicator.wait(timeout=.2)
        self.assertEqual(mock_welcome.call_count, 1)
Beispiel #7
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    async def test_send_message(self):
        """
        `send_message` should format the correct message and return it to the
        server
        """
        class SendMessageConsumer(AsyncIrcConsumer):
            async def test_message(self, event):
                await self.send_message('my_channel', 'Hello IRC!')

        communicator = ApplicationCommunicator(SendMessageConsumer,
                                               {'type': 'irc'})

        await communicator.send_input({'type': 'test.message'})

        event = await communicator.receive_output(timeout=1)
        self.assertEqual(
            event, {
                'type': 'irc.send',
                'command': 'message',
                'channel': 'my_channel',
                'body': 'Hello IRC!',
            })
Beispiel #8
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async def run_consumer(timeout=None, dry_run=False):
    """Run the consumer until it finishes processing.

    :param timeout: Set maximum execution time before cancellation, or
        ``None`` (default) for unlimited.
    :param dry_run: If ``True``, don't actually dispatch messages, just
        dequeue them. Defaults to ``False``.
    """
    channel = state.MANAGER_CONTROL_CHANNEL
    scope = {
        "type": "control_event",
        "channel": channel,
    }

    app = ApplicationCommunicator(ManagerConsumer, scope)

    channel_layer = get_channel_layer()

    async def _consume_loop():
        """Run a loop to consume messages off the channels layer."""
        while True:
            message = await channel_layer.receive(channel)
            if dry_run:
                continue
            if message.get("type", {}) == "_resolwe_manager_quit":
                break
            message.update(scope)
            await app.send_input(message)

    if timeout is None:
        await _consume_loop()
    try:
        # A further grace period to catch late messages.
        async with async_timeout.timeout(timeout or 1):
            await _consume_loop()
    except asyncio.TimeoutError:
        pass

    await app.wait()
Beispiel #9
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    async def test_send_command(self):
        """
        `send_command` should format the correct message and return it to the
        server
        """
        class SendCommandConsumer(AsyncIrcConsumer):
            async def test_command(self, event):
                await self.send_command('join', channel='my_channel')

        communicator = ApplicationCommunicator(SendCommandConsumer,
                                               {'type': 'irc'})

        # Give the loop a beat to initialize the instance
        await communicator.send_input({'type': 'test.command'})

        event = await communicator.receive_output(timeout=1)
        self.assertEqual(
            event, {
                'type': 'irc.send',
                'command': 'join',
                'channel': 'my_channel',
                'body': None,
            })
Beispiel #10
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async def run_consumer(timeout=None):
    """Run the consumer until it finishes processing."""
    channel = state.MANAGER_CONTROL_CHANNEL
    scope = {
        'type': 'control_event',
        'channel': channel,
    }
    from . import manager

    app = ApplicationCommunicator(ManagerConsumer, scope)

    channel_layer = get_channel_layer()

    async def _consume_loop():
        """Run a loop to consume messages off the channels layer."""
        while True:
            message = await channel_layer.receive(channel)
            if message.get('type', {}) == '_resolwe_manager_quit':
                break
            message.update(scope)
            await manager.sync_counter.inc('message-handling')
            await app.send_input(message)

    if timeout is None:
        await _consume_loop()
    try:
        # A further grace period to catch late messages.
        async with async_timeout.timeout(timeout or 1):
            await _consume_loop()
    except asyncio.TimeoutError:
        pass

    await app.wait()
    flush = getattr(channel_layer, 'flush', None)
    if flush:
        await flush()
async def test_worker_and_client():
    client_consumer = URLRouter([url(r'^ws/(?P<subscriber_id>.+)$', ClientConsumer)])

    client = WebsocketCommunicator(client_consumer, '/ws/test-session')
    worker = ApplicationCommunicator(
        WorkerConsumer, {'type': 'channel', 'channel': CHANNEL_WORKER_NOTIFY}
    )

    # Connect client.
    status, _ = await client.connect()
    assert status is True

    # Create an observer.
    @database_sync_to_async
    def create_observer():
        observer = QueryObserver(
            create_request(views.PaginatedViewSet, offset=0, limit=10)
        )
        items = observer.evaluate()
        assert not items

        add_subscriber('test-session', observer.id)
        return observer.id

    observer_id = await create_observer()

    # Create a single model instance for the observer model.
    @database_sync_to_async
    def create_model():
        return models.ExampleItem.objects.create(enabled=True, name="hello world").pk

    primary_key = await create_model()

    # Check that ORM signal was generated.
    channel_layer = get_channel_layer()

    notify = await channel_layer.receive(CHANNEL_WORKER_NOTIFY)
    assert notify['type'] == TYPE_ORM_NOTIFY_TABLE
    assert notify['kind'] == ORM_NOTIFY_KIND_CREATE
    assert notify['primary_key'] == str(primary_key)

    # Propagate notification to worker.
    await worker.send_input(notify)

    # Check that observer evaluation was requested.
    notify = await channel_layer.receive(CHANNEL_WORKER_NOTIFY)
    assert notify['type'] == TYPE_EVALUATE_OBSERVER
    assert notify['observer'] == observer_id

    # Propagate notification to worker.
    await worker.send_input(notify)

    response = await client.receive_json_from()
    assert response['msg'] == 'added'
    assert response['primary_key'] == 'id'
    assert response['order'] == 0
    assert response['item'] == {'id': 1, 'enabled': True, 'name': 'hello world'}

    # No other messages should be sent.
    assert await client.receive_nothing() is True

    await client.disconnect()

    # Run observer again and it should remove itself because there are no more subscribers.
    await worker.send_input({'type': TYPE_EVALUATE_OBSERVER, 'observer': observer_id})
    assert await worker.receive_nothing() is True

    # Ensure that subscriber and observer have been removed.
    @database_sync_to_async
    def check_subscribers():
        assert observer_models.Subscriber.objects.all().count() == 0
        assert observer_models.Observer.objects.all().count() == 0

    await check_subscribers()
async def test_poll_observer_integration():
    client_consumer = URLRouter([url(r'^ws/(?P<subscriber_id>.+)$', ClientConsumer)])

    client = WebsocketCommunicator(client_consumer, '/ws/test-session')
    worker = ApplicationCommunicator(
        WorkerConsumer, {'type': 'channel', 'channel': CHANNEL_WORKER_NOTIFY}
    )
    poller = ApplicationCommunicator(
        PollObserversConsumer, {'type': 'channel', 'channel': CHANNEL_POLL_OBSERVER}
    )

    # Connect client.
    status, _ = await client.connect()
    assert status is True

    # Create an observer.
    @database_sync_to_async
    def create_observer():
        observer = QueryObserver(create_request(views.PollingObservableViewSet))
        items = observer.evaluate()
        assert len(items) == 1

        add_subscriber('test-session', observer.id)
        return observer.id

    observer_id = await create_observer()

    # Ensure that a notification message was sent to the poller.
    channel_layer = get_channel_layer()

    notify = await channel_layer.receive(CHANNEL_POLL_OBSERVER)
    assert notify['type'] == TYPE_POLL_OBSERVER
    assert notify['interval'] == 5
    assert notify['observer'] == observer_id

    # Dispatch notification to poller as our poller uses a dummy queue.
    await poller.send_input(notify)

    # Nothing should be received in the frist 4 seconds.
    async with async_timeout.timeout(4):
        try:
            await channel_layer.receive(CHANNEL_WORKER_NOTIFY)
            assert False
        except CancelledError:
            pass

    # Then after two more seconds we should get a notification.
    notify = await channel_layer.receive(CHANNEL_WORKER_NOTIFY)

    # Dispatch notification to worker.
    await worker.send_input(notify)

    # Ensure another notification message was sent to the poller.
    notify = await channel_layer.receive(CHANNEL_POLL_OBSERVER)
    assert notify['type'] == TYPE_POLL_OBSERVER
    assert notify['interval'] == 5
    assert notify['observer'] == observer_id

    # Ensure client got notified of changes.
    response = await client.receive_json_from()
    assert response['msg'] == 'changed'
    assert response['primary_key'] == 'id'
    assert response['order'] == 0
    assert response['item']['static'].startswith('This is a polling observable:')

    # No other messages should be sent.
    assert await client.receive_nothing() is True

    await client.disconnect()
async def test_throttle_observer():
    with override_settings(
            DJANGO_REST_FRAMEWORK_REACTIVE={'throttle_rate': 2}):
        channel_layer = get_channel_layer()
        main = ApplicationCommunicator(MainConsumer, {
            'type': 'channel',
            'channel': CHANNEL_MAIN
        })
        worker = ApplicationCommunicator(WorkerConsumer, {
            'type': 'channel',
            'channel': CHANNEL_WORKER
        })

        @database_sync_to_async
        def create_observer():
            observer = QueryObserver(
                create_request(views.ExampleItemViewSet, offset=0, limit=10))
            items = observer.subscribe('test-session')
            return observer.id

        @database_sync_to_async
        def get_last_evaluation(observer_id):
            return observer_models.Observer.objects.get(
                id=observer_id).last_evaluation

        def throttle_count(observer_id, value=None):
            cache_key = throttle_cache_key(observer_id)
            if value is None:
                return cache.get(cache_key)
            else:
                return cache.set(cache_key, value)

        observer_id = await create_observer()

        # Test that observer is evaluated
        async with async_timeout.timeout(1):
            await worker.send_input({
                'type': TYPE_EVALUATE,
                'observer': observer_id
            })

            # Nothing should be in the main worker
            assert await main.receive_nothing()

            # Get last evaluation time for later comparisson
            last_evaluation = await get_last_evaluation(observer_id)

            # Throttle count should be 1 (one process)
            assert throttle_count(observer_id) == 1

            # Ensure last_evaluated time change before the next test
            await asyncio.sleep(0.001)

            # Observer evaluation is delayed while another is evaluated
            await worker.send_input({
                'type': TYPE_EVALUATE,
                'observer': observer_id
            })

            # Delayed observer should be scheduled
            notify = await channel_layer.receive(CHANNEL_MAIN)
            assert notify['type'] == TYPE_POLL
            assert notify['observer'] == observer_id

            # Throttle count should be 2 (two processes)
            assert throttle_count(observer_id) == 2

            # Observer should not be evaluated
            assert last_evaluation == await get_last_evaluation(observer_id)

            # Observer evaluation is discarded when delayed observer scheduled
            await worker.send_input({
                'type': TYPE_EVALUATE,
                'observer': observer_id
            })

            # Nothing should be in the main worker
            assert await main.receive_nothing()

            # Observer should not be evaluated
            assert last_evaluation == await get_last_evaluation(observer_id)

            # Throttle count should be 3 (three processes)
            assert throttle_count(observer_id) == 3
async def test_worker_and_client():
    client_consumer = URLRouter(
        [path('ws/<slug:subscriber_id>',
              ClientConsumer().as_asgi())])

    client = WebsocketCommunicator(client_consumer, '/ws/test-session')
    main = ApplicationCommunicator(MainConsumer(), {
        'type': 'channel',
        'channel': CHANNEL_MAIN
    })
    worker = ApplicationCommunicator(WorkerConsumer(), {
        'type': 'channel',
        'channel': CHANNEL_WORKER
    })

    # Connect client.
    status, _ = await client.connect()
    assert status is True

    # Create an observer.
    @database_sync_to_async
    def create_observer():
        observer = QueryObserver(
            create_request(views.PaginatedViewSet, offset=0, limit=10))
        items = observer.subscribe('test-session')
        assert not items
        return observer.id

    observer_id = await create_observer()
    await assert_subscribers(1)
    await assert_subscribers(1, observer_id)

    # Create a single model instance for the observer model.
    @database_sync_to_async
    def create_model():
        return models.ExampleItem.objects.create(enabled=True,
                                                 name="hello world").pk

    primary_key = await create_model()
    channel_layer = get_channel_layer()

    async with async_timeout.timeout(1):
        # Check that ORM signal was generated.
        notify = await channel_layer.receive(CHANNEL_MAIN)
        assert notify['type'] == TYPE_ORM_NOTIFY
        assert notify['kind'] == ORM_NOTIFY_KIND_CREATE
        assert notify['primary_key'] == str(primary_key)

        # Propagate notification to worker.
        await main.send_input(notify)

        # Check that observer evaluation was requested.
        notify = await channel_layer.receive(CHANNEL_WORKER)
        assert notify['type'] == TYPE_EVALUATE
        assert notify['observer'] == observer_id

        # Propagate notification to worker.
        await worker.send_input(notify)
        response = await client.receive_json_from()
        assert response['msg'] == 'added'
        assert response['primary_key'] == 'id'
        assert response['order'] == 0
        assert response['item'] == {
            'id': primary_key,
            'enabled': True,
            'name': 'hello world',
        }

    # No other messages should be sent.
    assert await client.receive_nothing() is True
    await client.disconnect()

    # Ensure that subscriber has been removed.
    await assert_subscribers(0)

    async with async_timeout.timeout(1):
        # Run observer again and it should skip evaluation because there are no more subscribers.
        await worker.send_input({
            'type': TYPE_EVALUATE,
            'observer': observer_id
        })

    assert await worker.receive_nothing() is True
async def test_poll_observer_integration():
    client_consumer = URLRouter(
        [path('ws/<slug:subscriber_id>',
              ClientConsumer().as_asgi())])

    client = WebsocketCommunicator(client_consumer, '/ws/test-session')
    main = ApplicationCommunicator(MainConsumer(), {
        'type': 'channel',
        'channel': CHANNEL_MAIN
    })
    worker = ApplicationCommunicator(WorkerConsumer(), {
        'type': 'channel',
        'channel': CHANNEL_WORKER
    })

    # Connect client.
    status, _ = await client.connect()
    assert status is True

    # Create an observer.
    @database_sync_to_async
    def create_observer():
        observer = QueryObserver(create_request(
            views.PollingObservableViewSet))
        items = observer.subscribe('test-session')
        assert len(items) == 1
        return observer.id

    observer_id = await create_observer()
    await assert_subscribers(1)
    await assert_subscribers(1, observer_id)

    channel_layer = get_channel_layer()

    async with async_timeout.timeout(1):
        # Ensure that a notification message was sent to the poller.
        notify = await channel_layer.receive(CHANNEL_MAIN)
        assert notify['type'] == TYPE_POLL
        assert notify['interval'] == 2
        assert notify['observer'] == observer_id

        # Dispatch notification to poller as our poller uses a dummy queue.
        await main.send_input(notify)

    # Nothing should be received in the first second.
    with pytest.raises(asyncio.TimeoutError):
        async with async_timeout.timeout(1):
            await channel_layer.receive(CHANNEL_WORKER)
            assert False

    async with async_timeout.timeout(2):
        # Then after another second we should get a notification.
        notify = await channel_layer.receive(CHANNEL_WORKER)

        # Dispatch notification to worker.
        await worker.send_input(notify)

        # Ensure another notification message was sent to the poller.
        notify = await channel_layer.receive(CHANNEL_MAIN)
        assert notify['type'] == TYPE_POLL
        assert notify['interval'] == 2
        assert notify['observer'] == observer_id

        # Ensure client got notified of changes.
        response = await client.receive_json_from()
        assert response['msg'] == 'changed'
        assert response['primary_key'] == 'id'
        assert response['order'] == 0
        assert response['item']['static'].startswith(
            'This is a polling observable:')

    # No other messages should be sent.
    assert await client.receive_nothing() is True
    await client.disconnect()